Two Year m.tech (Civil)1

7/31/2019 Two Year m.tech (Civil)1

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M. TECH

INFRA STRUCTURE ENGINEERING

&

CONSTRUCTION MANAGEMENT

I SEMESTER

S.No.Subject

CodeSubject L T/P Cr

1 IE 111 Prestressed Concrete Structures 3 1 4

2 IE 112 Industrial Structures 3 1 4

3 IE 113 Geotechniques for Infrastructure 3 1 4

4 IE 114 Remote Sensing & GIS in Civil Engineering 3 1 3

5 IE 115 Construction Management 3 1 4

6 IE 116 ELECTIVE I 3 1 37 IE 131 Construction Materials Testing Lab 0 3 2

8 IE 132 Computer Aided Analysis and Design Lab 0 3 2

TOTAL 26

II SEMESTER

S.No.SubjectCode

Subject L T/P Cr

1 IE 211 Integrated Water Infrastructure Planning & Management 3 1 4

2 IE 212 Construction Economics & Financial Management 3 1 4

3 IE 213 Quality Control and Safety Management 3 1 4

4 IE 214 Bridge Engineering Infrastructure 3 1 4

5 IE 215 Sea & Inland Port Infrastructure 3 1 3

6 IE 216 ELECTIVE II 3 1 3

7 IE 241 Construction Management Software Lab 0 3 2

8 IE 242 Seminar 3 2

TOTAL 26

ELECTIVE I

1. IE 116/1 Contract Laws & Regulation

2. IE 116/2 Airport Planning & Design3. IE 116/3 Irrigation Water Distribution Systems4. IE 116/4 Infrastructure Engineering Structures

ELECTIVE II

1. IE 216/1 Building Services2. IE 216/2 Special Concretes and Applications

3. IE 216/3 Environmental Impact Assessment4. IE 216/4 Construction Equipment and Management


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III SEMESTER

S.INo.

SubjectCode

Subject L T/P Cr

1. IE 311 Seminar on Dissertation - - 6

2. IE 312 Dissertation Interim Evaluation - - 6

TOTAL = 12

IV SEMESTER

S.INo.

SubjectCode

Subject L T/P Cr

1 IE 411 Dissertation Open defence - - 62 IE 412 Dissertation Evaluation - - 6

TOTAL = 12

During this semester a student is expected to work on a topic related to the

area of his/her interest for his dissertation work under the supervision of the faculty.

All the end of the dissertation work, he/she should submit a Thesis/Report on the

topic chosen for dissertation work and face viva-voce examination.


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SYLLABUS FOR M.TECH(INFRASTRUCTURE ENGINEERING &CONSTRUCTIONMANAGEMENT

IE 111 PRESTRESSED CONCRETE STRUCTURES

PURPOSETo provide comprehensive understanding on the design of prestressed concrete structures including

indeterminate structures.

INSTRUCTIONAL OBJECTIVES

To study the analysis of PSC flexural, tensile, compressive, composite, and indeterminatestructural members

To carry out the complete design of beams, composite beams and columns and shells

UNIT I

ANALYSIS OF PSC FLEXURAL MEMBERS: Basic Concepts, Stresses at transfer and service loads,ultimate strength in flexure - code provisions in - deflection (short - long term) .

UNIT I I

DESIGN OF TENSION MEMBERS: Design for shear, bond and torsion Design of End blocks - Designof Tension Members - Design of prestressed concrete cylindrical water tanks - Design of prestressedconcrete pipes.

UNIT I I IDESIGN OF COMPRESSION MEMBERS: Compression members with and without flexure - itsapplication in design of piles.

UNIT I V

COMPOSITE BEAMS: Analysis and Design - Ultimate Strength - their applications - SpecialStructures like folded plates, prestressed cylindrical shells, spherical shells, partial prestressing.

UNIT V

STATICALLY INDETERMINATE STRUCTURES: Analysis and design - continuous beams - Conceptof linear transformation - concordant cable profile and cap cables.

REFERENCE BOOKS

1. Krishna Raju.N "Prestressed Concrete", 4th Edition, Tata McGraw Hill Publishing Co. NewDelhi 2000

2. Sinha.N.C & S.K.Roy, "Fundamentals of Prestressed Concrete, S.Chand & Co., 19853. Rajagopalan.N. "Prestressed Concrete", Narosa Publishing House, New Delhi - 20024. Lin.T.Y. "Design of Prestressed Concrete Structures", John Wiley and Sons - Inc - 19605. Leonhardt.F. "Prestressed Concrete Design and Construction", - Second Edition Wilhelm

Ernst & Sohn, Berlin, 19646. Guyon.V. "Limit State Design of Prestressed Concrete", - Vol - 1 &2, Applied Science

Publishers, London 1995

7. Dayaratnam.P., "Prestressed Concrete", Tata McGraw Hill Publishing Co. New Delhi 2000


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IE 112 INDUSTRIAL STRUCTURES

PURPOSE

To get exposed to the functional requirements to be considered in the design of industrial structures and

their detailed design incorporating codal requirements.


Specific requirements for engineering, textiles, chemicals etc.,

Functional Requirements of industrial structures

Design of RC Gale frames, Corbels, bunkers, Silos and Chimneys

Design of steel roof trusses and lattice girders, gantry girders, self supporting chimney and

design of bunkers and chimneys

Design of light guage steel sections and application of prefabrication techniques

Unit IGeneralClassification of industries and industrial structures Specific requirements for industries likeEngineering, Textiles, Chemicals, etc. Site layout and external facilities required Industrial roofs Industrial floors Walls and partitions.

Unit IIFunctional RequirementsIllumination levels Characteristics of good lighting Daylighting Principles of daylighting design Artificial lighting Introduction to ventilation Amount of Ventilation required Natural ventilation Mechanical ventilation Installation and operation Electrical installations substations Airconditioning Fire expanse and chutes fire alarm, extinguishers and hydrants Guidelines fromfactories atc.

Unit IIIIndustrial R.C.StructuresDesign and detailing of R.C. gable frames, corbels, bunkers, silos and chimneys.

Unit IVIndustrial Steel StructuresDesign of roof trusses and lattice girders Design of gantry girders Design of self supporting andguyed steel chimneys Design of steel bunkers and silos.

Unit VMiscellaneousDesign of light gauge sections Applications of prefabrication techniques in industrial concrete

constructions.

Textbook:Dunham, C.W., Planning Industrial Structures, Mc Graw Hill book company, Inc., 1980.

References:1. Handbook on Fundamental Requirements of Industrial Buildings (lighting and Ventilation), BIS.2. Krishnaraju, N., Advanced Reinforced Concrete Design, CBS Publishers & Distributors, NewDelhi, 2005.3. Dayarathnam, P., Design of Steel Structures, A.H. Wheeler & Co., Ltd., Allahabad, 2000.4. I.S: 9178 Part I and Part II5. I.S: 3483

6. I.S: 6060.


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IE 113 GEOTECHNIQUES FOR INFRASTRUCTUREPURPOSE:To get exposed to the design aspects of foundation structural elements like footings ofvarious types, pile caps, well foundations etc.,INSTRUCTIONAL OBJECTIVES:

Soil investigation report for design of foundation structures

Design of foundations for towers

Design of deep foundations

Braced cuts and Drainage

Sheet pile walls and Coffer dams

UNIT-Site Investigations for Infrastructure projectsIntroduction, methods of exploration, planning of soil exploration, boring of holes; Sampling in soil;Underwater sampling; Standard penetration test (SPT), SPT correlations; Cone penetration test (CPT),CPT correlations for cohesive and cohesion less soils; Correlation between SPT and CPT; Field vaneshear test; Plate load test; Pressure meter test, Rock sampling & testing; Ground water table condition,Ground water level observation; Geophysical exploration- Seismic refraction method, Electrical resistivity

method; Depth of boreholes; Number of boreholes; Execution of soil exploration programme, Datainterpretation & preparation of Soil Report.UNIT- IIFoundations for Transmission line towers and ChimneysIntroduction, Types of drilled shafts, Construction procedures, other designing considerations; Estimationof Load bearing capacity-General; Load bearing capacity of drilled shafts in Sand; Load bearing capacityof drilled shafts in Clay; Load bearing capacity based on settlement consideration; Design of Chimneyfoundations;UNIT-IIIDesign of Deep foundationsIntroduction, classification of piles, Load transfer mechanism, pile capacity using Static and Dynamicformulae, Negative skin friction, Group Action of piles, Efficiency of pile group, Consolidation settlementof group piles, Laterally loaded piles, piles subjected to Uplift loads, Pile load tests; Design of Well

foundations-forces acting well, scour depth, grip length, different design methods of well foundation forbridges.

UNIT-IVBraced cuts and DrainageIntroduction, Lateral earth pressure distribution on braced cuts-Deep cuts in sand, pressure diagrams,cuts in stratified soils; Stability of braced cuts in saturated clay- Heave of the bottom of the cut in clay;Bjerrum and Eide method of Analysis; Stability of braced cut in sand; piping failures in sand cuts; Designof struts and other elements.DrainageIntroduction, methods of dewatering; Design of dewatering system-well point system and drainagearrangements in foundations.UNIT-V

Sheet pile wallsIntroduction, types of sheet pile walls, cantilever sheet pile walls, cantilever sheet pile in cohesion lesssoil, cantilever pile penetrating clay; Anchored sheet pile with free earth support in cohesive andcohesion less soils, anchored bulk heads with fixed earth support methods; Types, location and design ofanchors.Coffer damsIntroduction, Types of cofferdams, Components of cellular coffer dams; Stability of cellular coffer damswith design principlesNote: Study and Use of Related IS& IRC & IRS Codes permitted.Text Books:

1. Murthy.V.N.S, A text book of soil mechanics and foundation engineering, Vol-II, Kripa

Technical consultants, Bangalore, 1992

2. GopalRanjan and A.S.R.Rao, Basic and applied soil mechanics, Wiley EasternLtd, New

Delhi,1997


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3. J.E. Bowels, Foundation Analysis and Design.

4. B.M.Das, Principles of Foundation Engineering, Cengage learning India Pvt ltd ( formerly

Thomson publications )

5. Swami Saran, Analysis and design of substructures.Oxford and IBH publishing limited

References:

1. IS 2974-part I to V

2. IS 5249


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IE 114 REMOTE SENSING AND GIS APPLICATIONS IN CIVIL ENGINEERING

PURPOSETo make the students to obtain fundamental knowledge on equipments and techniques utilized tointerpret remote sensing imagery visually and digitally and further to have idea on integration ofinterpreted data in GIS.


To study the various types of data, data analysis methods and data quality requirements .

To study the fundamentals of Remote sensing

To study the fundamentals of GIS

To study the applications of RS and GIS in Civil Engineering

UNIT-IFundamentals of Remote Sensing: Physics of remote sensing Energy sources Radiation Principles Black Body Radiation Planks Law Stefan Boltzman law - Energy interaction with atmosphere Atmospheric characteristics Scattering Raleigh, Mie, Non-selective and Raman scattering -Absorption Atmospheric Windows and its significance Energy interaction with earth surface features

Absorption, Transmission, Scattering , Radiance, Irradiance, Incident & Reflection EMR interaction withozone, water vapour, water, soil, vegetation and rock.

UNIT-IIData Acquisition: Spectral reflectance of earth surface features in different wave length regions of EMR Visible, Infra red(IR), Near IR, Middle IR, and Thermal IR. Spectral Signature Spectral SignatureCurves Satellites Classification based on orbit and Purpose -Sensors - Resolutions (Spectral, Spatial,Temporal and Radiometric) of IRS series, LANDSAT, SPOT, IKONOS AND ERS satellites Descriptionof Sensors in IRS series, LANDSAT, SPOT, IKONOS AND ERS satellites description of multispectralscanning - Data Acquisition (Signal detection, Recording, and Scanning Mechanism)

UNIT-IIIData Analysis: Image interpretation elements - Visual interpretation of satellite Images Interpretation

key characteristics of digital satellite image - Digital Image Processing Stretching Filtering - EdgeEnhancement - Band Rationing Image Classification.

UNIT-IVGeographical Information Systems: Definition Components Hardware and Software Datastructures in GIS Raster and vector data structures Types of Data Spatial and Non spatial - Database structures Data input and output Analysis using vector and raster data Retrieval,Reclassification, Overlaying and Buffering - Maps Types of maps Projection Types of Projection.

UNIT-VApplications of Remote Sensing and GIS: Introduction to GPS and its applications - Integration ofRemote Sensing and GIS Hydrological & Water resources assessment and mapping Soil andGeological mapping Land use and Land cover mapping Environmental assessment and Planning

Urban sprawl mapping and Transportation studies.

Text Books1. Prithvish Nag and M.Kudrat ,Digital Remote Sensing, Concept Publishing Company, NewDelhi, 19982. John R.Jensen,, Remote Sensing of the environment An Earth resource perspective,Pearson Education Publication (Singapore low prized ed.,), Indian branch, Delhi, 20053. Anji Reddi, Remote Sensing and Geographical Information Systems, BS Publications, 2001.4. Srinivas.M.G (Edited by), Remote Sensing Applications, Narosa Publishing House, 2001.

Reference Books1. Lillesand,T.M and Kiefer.W, Remote Sensing and Image Interpretations, John Wiley & Sons, NewYork, 1987

2. Burrough, P.A., Principles of Geographical Information Systems for Land ResourcesAssessment, Clarandone Press, Oxford, 1986


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IE 115 CONSTRUCTION MANAGEMENT

PURPOSETo study the elements of construction project management consisting of owners' perspective,organization, design and construction procedures, resource utilization and cost estimation.


To study how the owner view a project in consideration with project life cycle,construction agencies legal requirements etc

To study the various types of organization and their impact on and suitability toconstruction projects

To study the design and construction procedures along with labour material andequipment utilization

To study the elements of cost of a project

UNIT I

THE OWNERS' PERSPECTIVE: Introduction - The Project life Cycle - Major Types ofconstruction - Selection of Professional Services - Construction Contractors - Financing ofConstructed Facilities - Legal and Regulatory Requirements- The Changing Environment of theConstruction Industry - The Role of Project Managers.

UNIT I I

ORGANIZING FOR PROJECT MANAGEMENT: What is Project Management? - Trends inModern Management - Strategic Planning and Project Programming - Effects of Project Riskson Organization. Organization of Project Participants - Traditional Designer-ConstructorSequence. Professional Construction Management - Owner - Builder Operation - TurnkeyOperation - Leadership and Motivation for the Project Team. Interpersonal Behavior in ProjectOrganizations - Perceptions of Owners and Contractors.

UNIT I I I

THE DESIGN AND CONSTRUCTION PROCESS: Design and Construction as an IntegratedSystem - Innovation and Technological Feasibility - Innovation and Economic Feasibility -Design Methodology - Functional Design- Physical Structures-Geo-technical EngineeringInvestigation - Construction - Site Environment - Value Engineering - Construction Planning -Industrialized Construction and Pre-fabrication - computer-Aided Engineering.

UNIT I V

LAB OUR, MATERIAL AND EQUIPMENT UTILIZATION: Historical Perspective- LaborProductivity - Factors Affecting Job-Site Productivity - Labor Relations in Construction -Problems In Collective bargaining - Materials Management - Material Procurement and delivery- Inventory Control - Tradeoffs of Costs In Materials Management. - Construction equipment -

Choice of Equipment and Standard Production Rates. Construction Processes Queues andResource Bottle - necks.

UNIT V

COST ESTIMATION: Costs Associated with Constructed Facilities - Approaches to CostEstimation - Type of Construction Cost Estimates - Effects of Scale on Construction Cost - UnitCost Method of Estimation - Methods for Allocation of Joint Costs - Historical Cost Data - CostIndices. Applications of Cost Indices to Estimating - Estimate Based on Engineer's List ofQuantities-Allocation of Construction Costs Over time - Computer Aided Cost Estimation -Estimation of Operating Costs.

REFERENCE BOOKS


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1. Chris Hendrickson and Tung Au, "Project Management for Construction-FundamentalConcepts for owners, Engineers, Architects and Builders", Prentice Hall, Pittsburgh,2000

2. Chitkara, K.K "Construction Project Management: Planning Scheduling and Control"Tata McGraw-Hill Publishing Company, New Delhi - 1998

3. Frederick E. Gould, "Construction Project Management", Went worth Institute ofTechnology, Vary E. Joyce, Massachusetts Institute of Technology, 2000

4. Choudhury, S "Project Management", Tata McGraw-Hill Publishing company New

Delhi 19885. Ernest E. Ludwig. "Applied Project Engineering and Management", Gulf Publishing

Company, Houstan, Texas, 19886. Harold Kerzner, "Project Management - A Systems Approach to Planning Scheduling

and Controlling", CBS Publishers & Distributors, Delhi1988

7. Joy, P.K., "Total Project Management" - The Indian Context Management New Delhi1982

IE 116/1 CONTRACT LAWS AND REGULATIONS

Unit - IConstruction Contracts: Indian Contracts Act - Elements of Contracts - Types of Contracts - Features -Suitability - Design of Contract Documents - International Contract document - Standard ContractDocument - law of torts

Unit IITenders: Prequalification -Bidding - Accepting - Evaluation of tender and Interpretation - Potential

Contractual Problems - World Bank Procedures and Guidelines

Unit - III


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Arbitration: Comparison of Actions and Laws -Agreements - Subject Matter - Violations -Appointment ofArbitrators - Conditions of Arbitration - Powers and Duties of Arbitrator - Rules of Evidence -Enforcementof Award Costs.

Unit IVLegal Requirements: Insurance and Bonding -Laws Governing Sale, Purchase and Use of Urban andRural Land -Land Revenue Codes - Tax Laws - Income Tax, Sales Tax, Excise and Custom Duties andtheir Influence on Construction Costs -Legal Requirements for Planning - Property Law - Agency Law-Local Government Laws for Approval - Statutory Regulations

Unit VLabour Regulations: Social Security - welfare Legislation - Laws relating to Wages, Bonus and Industrialdisputes, Labour Administration - Insurance and Safety Regulations - Workmen's Compensation Act-other labour Laws

References:

1. Gajaria, G.T., Laws Relating to Building and Engineering Contracts in India, M.M. Tripathi PrivateLtd., Bombay , 1982

2. Jimmie Hinze, Construction Contracts, 2nd Edition , McGraw Hill, 2001

3. Joseph T. Bockrath, Contracts and the Legal Environment for Engineers and Architects, 6th

Edition, McGraw Hill, 2000.

IE 116/2 AIRPORT PLANNING AND DESIGN

UNIT 1AIR TRANSPORT

History of Air Transport, National Airports Authority, International Airports Authority of India,

Airports Authority of India, International Civil Aviation Organization.

AIR PORT CHARACTERISTICS

Aeroplane component parts, Military and civil aircrafts, Civil military co-ordination, Aircraft

characteristics


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UNIT 2

AIRPORT PLANNING

Airport Master Plan, Regional Planning, Airport site selection, surveys for site selection.

AIRPORT OBSTRUCTIONS

Zoning laws, classifications of obstructions, approach zone, turning zone

UNIT 3

RUNWAY DESIGN

Runway orientation, Basic runway length, Corrections for elevation, Temperature and gradient,

Airport classification.

TAXIWAY DESIGN

Factors controlling taxiway layout, Geometric design standards, Exit taxiways, Fillets, Separation

clearance.

UNIT 4

STRUCTURAL DESIGN OF AIRPORT PAVEMENTS

Design factors, Design methods for flexible pavements- CBR method, McLeod method,

Burmister method, Design method for air field rigid pavements, LCN system of pavement design

UNIT 5

TERMINAL AREA AND LAYOUT

Terminal area, Building and building area, Vehicular circulation and parking area, Apron, Hanger.

VISUAL AIDS

Introduction, Airport Marking, Airport Lighting

AIRPORT DRAINAGE

Introduction, Special characteristics & requirements of airport drainage, surface drainage, Sub-

surface drainage.


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TEXT BOOKS:1. Airport planning and Design by S.K. Khanna & M.G Arora; Nemchand & Bros,

Roorkee.

2. Planning and Design of Airports By Robert horonjeff and Francis X. Mckelvey

IE 116/3 IRRIGATION WATER DISTRIBUTION SYSTEMS

UNIT-IIntroduction : Irrigation development in India type of irrigation system ethod of distribution RWS,Warabandi, Shejpati and localisation.

UNIT-IIDistribution works : Types of Head works Classification of Channels Regulations Drops Canalescapes Sluices Sand vent Tail dams Syphons.

UNIT-IIICanal : Design of erodible non-erodible channels division box diversion box outlet proportionaldiviers bed dam block / chak design commandability realignment of block operation andmaintanance.

UNIT - IVClosed Conduit Distribution : Drip Sprinkler Underground pipe design Layout Evaluation Operation and Maintenance.

UNIT - VFlow Measurements : Flow measuring structures Flumes Weirs Orifices Dilution Techniques Channel transitions Canal losses Measurement of losses.

Reference Books1. R.S. Varshney, S.C.Gupta and R.L. Gupta, Theory and Design of Irrigation Structures, Nemchand &Brothers, Roorkee, 1992.2. A.M. Michael, Irrigation Theory and Practice, Vikas Publishing House Pvt. Ltd., 1995.3. R.K. Sharma, Irrigation Engineering and Hydraulic Structures, Oxford and IBH Publishing Co., NewDelhi, 1984.4. H.W. Ellis, College of Engineering Irrigation Manual, Government of Tamil Nadu, 1973.

5. Irrgation Systems Design (An Engineering Approach) by Richard H. Cuneca, Prentice Hall Inc. (1989).


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IE 116/4 INFRASTRUCTURE ENGINEERING STRUCTURES

PURPOSE

To get exposed to the special requirements to be considered in the design of environmental

structures and their detailed design incorporating codal requirements.


Structural design of steel, cast iron piping sewage tanks

Design of water retaining structures

To develop an idea about the design of special R.C. elements

Repair and rehabilitation methods for masonry concrete and steel structure

Design of sedimentation tanks,,septic tanks and clariflocculators used in water and

sewerage works

UNIT I DESIGN OF PIPES

Structural design of a) concrete b) prestressed concrete c) steel and d) cast iron piping mains,sewerage tank design - anchorage for pipes - massive outfalls - structural design and laying

advances in the manufacture of pipes.

UNIT I I ANALYSIS AND DESIGN OF WATER TANKS

I. S. Codes for Design of Water retaining Structures - Design of concrete roofing system

Cylindrical, Spherical, Conical Shapes using membrane theory. Design of Circular,

Rectangular, Spherical and Intze types of tanks using concrete. Design of prestressed

concrete cylindrical tanks.

UNIT I I I DESIGN OF SPECIAL R.C.ELEMENTS

Behaviour and Design of Slender Columns - Design of R.C.Walls - Ordinatry and Shear walls- Deep beams and grid floors.

UNIT I V REPAIR AND REHABILITATION OF STRUCTURES

Diagonising the cause and damage, identification of different types of structural and non

structural cracks - repair and rehabilitation methods for masonry, concrete and steel

structures.

UNIT V SEWERAGE WORKS

Structural design of sedimentation tank - septic tank - layout of distribution system - Sludge

digestion tank. - Intake tower - clarifloculators - setting tanks..


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REFERENCE BOOKS

1. Dayanatnam. P. "Reinforced Concrete", Wheeler and Co, New Delhi. 1999

2. Krishna Raju. N. "Prestressed Concrete", Tata Mc Graw Hill Publishing Co. New Delhi,

2000

3. Ramaswamy. G. S. "Design and Construction of Concrete Shell roofs" CBS publishers

- New Delhi - 1986

IE 131 CONSTRUCTION MATERIAL TESTING LAB

PART-A:

1. Mix design for M30 grade,

a) by ACI method

b) by IS method

2. Find out the Compressive / Flexural test for the Concrete Cubes.3. Find out the Tensile strength of the Steel for Fe250, Fe415, Fe500 grades.

4. NDT tests to find out the strength of the existing structures.

PART-B:

1. Mix Design of Bituminous Concrete

2. Mix Design of Semi Dense Bituminous Macadam

PART-C:

Test on Soil Sub Grade,

1. California Bearing Ratio Test (Soaked)

2. California Bearing Ratio Test (Un Soaked)


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IE 132 COMPUTER AIDED ANALYSIS AND DESIGN LAB

PART-A:

Analysis and Design by using STAAD / STRAP.

2. Continuous Beam.

3. Portal Frame.

4. Multi span Portal Frame.5. Single storied building.

6. Multi-storied building.

PART-B:

Write a program by using C-Language.

1. Singly / doubly reinforced beam.

2. Short/long column

3. Continuous beam.

4. Generalized program for 2-lane and 4-lane road design.

PART-C:

Prepare an Excel sheets / Design sheets for the following.

1. Retaining wall

2. Gantry girder

3. Columns

4. Beams

5. Corbel/ Bracket

PART-D:

Prepare Estimation by using Pro-Estimate software.

1. Residential building.

2. Commercial complex.


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IE 211 INTEGRATED WATER INFRASTRUCTURE PLANNING & MANAGEMENT

ObjectiveTo make the students to obtain the knowledge on water Resources development and management.Further, to make them understand the concept of watershed management.

UNIT - IMaster Plan for Water: Concept of Integrated Water Resources Management- necessity - waterresources of India - problems and perspectives- National water Policy State Water Policy-Scope and

aims of master plan - Concept of Drainage basin as a unit for development -Elements of master plan Planning areas and their characteristics - Water budget and development plan

UNIT- IIWatershed Management: Watershed programmes factors affecting watershed management planning of watershed works watershed management practices- Case studies

UNIT - IIIUrban water Management: Integrated management of surfacewater, groundwater and wastewater-Water Resources planning water and Wastewater estimation- reuse and recycle Irrigation Aquaculture Groundwater recharge Industrial - Quality criteria

UNIT - IV

Management of Hydrologic Extremes: Natural Disasters - Flood estimation - Frequency analysis -Flood control Definitions of droughts Meteorologic, hydrologic and agricultural droughts IMDMethod NDVI Analysis Drought Prone Areas Programme (DPAP). Case Studies

UNIT -VParticipatory Water Management: Need for interdisciplinary approach Participatory approach:farmers organization and turn over Water Users Association- Irrigation management Transfer.Multiple use of water Participation in domestic, irrigation, industrial sectors User roles in participatorymanagement - Case Studies

Text Books

a. Sharma R.K and Sharma T.K., A Text book of Hydrology and water resourcesengineering, Dhanpat Rai Publications (p) Ltd, New Delhi, 2000.

b. Linsley R.K.and Franzini J.B. Water Resources Engineering, McGraw Hill inc, NewYork, 1995.

c. Kulandaisamy, V.C., Master Plan for Water Lecture Notes, Centre for WaterResources, Anna University, Chennai, 1990.

d. Rao K.L., Water wealth of India, Longman Publishing Co., New Delhi, 1974

2. Neil, S. Grigg., Urban Water Infrastructure Planning, Management and OperationsJohn Wiley& Sons, 1986.

Reference Books

1. Chadurvedi M.C., Water resource Systems Planning and Management, Tata McGraw Hillinc., New Delhi, 1997

2. Goodman Aluvin .S., Principles of water resources Planning, Prentice-Hall, India.3. E.M. Tideman, Watershed Management Guideline for Indian Conditions, Omega

Scientific Publishers, New Delhi, 1996.


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IE 212 CONSTRUCTION ECONOMICS AND FINANCIAL MANAGEMENT

PURPOSETo bring about an exposure to construction economics, financing and accounting methods andtheir usefulness in controlling construction projects.


To study the elements of construction economics

To study the need for financial management and means of achieving the same

To study a few accounting methods

To study the elements of lending to the contractorsUNIT IECONOMICS: Role of civil engineering in industrial development - Advances in civil engineering andengineering economics - Support matters of economy as related to engineering Market demand andsupply choice of technology and quality control and quality production - Audit in economic, Law of returnsgoverning production.

UNIT I I

CONSTRUCTION ECONOMICS: Construction development in housing, transport and otherinfrastructures - Economics of ecology, environment, energy resources, local material selection, form andfunctional designs - Construction workers - Urban problems - Poverty - Migration - Unemployment -Pollution.

UNIT I I I

FINANCING: The need for financial management - Types of financing - Short term borrowing - Long termborrowing - Leasing - Equity financing - Internal generation of funds - External commercial borrowings -Assistance from government budgeting support and international finance corporations - analysis offinancial statement - Balance Sheet - Profit and Loss account - Funds flow statement - Ratio analysis -Investment and financing decision -Financial control Job control and centralized management.

UNIT IV

ACCOUNTING METHOD: General overview - Cash basis of accounting - Accrual basis of accounting -Percentage - Completion method - Completed contract method - Accounting for tax reporting purposesand financial reporting purposes.

UNIT V

LENDING TO CONTRACTORS: Loans to contractors - Interim construction financing - Security and riskaspects.

REFERENCE BOOKS

1. Warneer Z, Hirsch, "Urban Economics", Macmillan, New York, 19932. Prasanna Chandra, "Project Management", TMH 19973. Kwaku A, Tenah and jose M.Guevara, "Fundamental of Construction Management


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and organization", Prentice - Hall of India, 1995

4. K K Chitkara, "Construction Project Management", Tata McGraw Hill. 1998

IE 213 QUALITY CONTROL AND SAFETY MANAGEMENT

PURPOSETo create a complete understanding on quality planning, quality assurance, quality control and safety management.


To understand the elements of quality planning and the implication

To become aware of objectives and advantage of quality assurance

To be exposed to means of quality control

To study the relationship between quality and safety management

UNIT I

CONSTRUCTION ORGANISATION: Types of organizations-Inspection. control and enforcement - Quality ManagementSystems and method - Responsibilities and authorities In quality assurances and quality Control - Architects, engineers,contractors, and special consultants, Quality circle.

UNIT I I

QUALITY PLANNING: Quality policy - Objectives and methods In Construction Industry - Consumers satisfaction,Economics-Time of Completion - Statistical tolerance - Taguchi's concept of quality - Codes and Standards - Documents- Contract and construction programming - Inspection procedures - Processes and products - Total QA I QC programmeand cost implication.

UNIT I I I

QUALITY ASSURANCE: Objectives - Regularity agent, owner, design, contract and construction oriented objectives,methods - Techniques and needs of QA/QC -Different aspects of quality - Appraisals, Factors Influencing constructionquality.

UNIT IV

QUALITY CONTROL: Critical, major failure aspects and failure mode analysis - Stability methods and tools, optimumdesign - Reliability testing - reliability coefficient and reliability prediction - Selection of new materials - Influence ofdrawings detailing, specification, standardization - Bid preparation - Reliability Based Design.

UNIT V

SAFETY MANAGEMENT: Construction activity, environmental safety. Social and environmental factors - Natural causesand speed of Construction - Life cycle costing - Reliability and Probabilistic methods-Value engineering and valueanalysis.

REFERENCES

1. James, J.O Brian, "construction Inspection Handbook - Quality Assurance and Quality Control", Van Nostrand,New York, 1989

2. Kwaku, A., Tenah, Jose. M. Guevara, "Fundamentals of Construction Management and Organization", RestonPublishing Co., Inc., Virginia, 1985

3. Juran Frank, J.M. and Gryna, F.M. "Quality Planning and Analysis", Tata McGraw Hill 19824. Hutchins.G, "ISO 9000", Viva Books. New Delhi 19935. Clarkson H. Oglesby, "Productivity Improvement in Construction", McGraw-Hill, 1989


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6. John L. Ashford, "The Management of Quality in Construction". E & F.N, Spon. New York, 19897. Steven McCabe, "Quality Improvement Techniques in Construction", Addison Wesley Longman Ltd, England.

1998

IE 214 BRIDGE ENGINEERING INFRASTRUCTURE

ObjectiveTo make the students to obtain basic skills necessary to perform design of various types of bridgesaccording to IRC code requirements.

UNIT-IGeneral: Introduction Selection of site for bridge Linear waterway Free board Economical span Scour depth Components of a bridge Types of bridges IRC Loading Classifications Specificationsfor a road bridge Specifications for railway bridge

UNIT-II

Design of RCC Bridges: Design of T beam slab bridges for IRC loading Design of deck slab,longitudinal and cross Girders Design of balanced cantilever bridge Design of slab, main girder,cantilever and articulation

UNIT-IIIDesign of Steel Bridges; Design of through type steel bridge for railway loading design of stringers,cross girder and main girder ,Design of deck type steel bridge for railway loading Design of main girder- Design of plate girder railway bridge for railway loading

UNIT-IVDesign of Prestressed concrete bridges: Preliminary sections Flexural and Torsional parameters Courbans theory Design of girder section ( I section only ) Check for stresses at various sections Check for diagonal tension Forces in anchorage zone

UNIT-VSubstructure and Bearings: Design principles and construction methods of pier, abutment andCaissons Types of bearings Design of elastomeric bearing Segmental construction of bridge Testing and Strengthening of bridge Inspection and Maintenance of bridges.

Text books1. Victor D.J Essential of bridge Engineering, Oxford & IBH publishing co. 1980.2. Krishnaraju N. Bridge Engineering, CBS Publications, New Delhi.3. Bindra.S.P., Principle and practice of Bridge Engineering, Dhanpat Rai & sons 1979.4. Ramchandra S. Design of Steel Structures Vol I & II, Standard book house, New Delhi, 1978.

Reference books

1. Ponnusamy Bridge Engineering, Tata Mcgraw hill Publishing co, 19952. Raina Concrete bridges practice Analysis design and Economics, Tata Mcgraw Hill Publishingco 2008.3. Jagadesh, T.R & Jeyaram M.A., Design of bridge structures, Prentice Hall of India Pvt Ltd. 20014. Rowe, R.E. Concrete Bridge Design, John Wiley & Sons, New York, USA, 1962.5. Phatak, D.R. Bridge Engineering, Satya Prakhasam, New Delhi, 1990

IS Codes:1. IRC: 78, Standard specifications & Code of practice for Road Bridges. Section VII-Foundation andSubstructures.2. IRC: 6-2000, Standard specifications & Code of practice for Road Bridges. Section II-Loads andStresses.3. IRC: 21-2000, Standard specifications & Code of practice for Road Bridges. Section III-Cement

Concrete (Plain and Reinforced).4. IRC: 83 Part II-1987, Standard specifications & Code of practice for Road Bridges. Section :9Bearing, Part II Elastomeric Bearings.


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215 SEA AND INLAND PORT INFRASTRUCTURE

UNIT 1

Introduction: Ports and harbours as the interface between the water and land infrastructure aninfrastructure layer between two transport media.The fundamentals: Wave conditions inside harbour; water circulation;breakwaters, jetties & quay walls;mooring, berthing and ship motion inside the port; cargo handling bulk material storage & handling.

UNIT 2

Design issues: Sea port layout with regards to (1) wave action (2) siltation (3) navigability berthingfacilities, design of port infrastructures with regards to (1) cargo handling (2) cargo storage (3) integratedtransport of goods, planning multipurpose port terminals.

UNIT 3

Port operations: Allowable wave conditions for cargo handling, wave conditions for human safety onquays and breakwaters, forecasting/nowcasting of wave &current conditions for port operations, dredgingand navigability, hazard scenarios;VTMS & management of computerized container terminal, safety &environment (handling of fire, oil spill, rescue, etc.).

UNIT 4

Inland Waterways and ports: maintenance of waterways, construction of environmentally engineeredbanks, dredging, processing and storing of polluted dredged materials, development of river informationservices, planning, design and construction of inland port infrastructure, renovation of inland portinfrastructure.

UNIT 5

Sustainability: Global trade and port restructuring/reforms, impact of possible climate change scenarios,sustainable development strategies for cities and ports.

REFERENCE BOOKS1. Coastal Hydraulics Sea and Inland Port Structures by A.M. Muir Wood and C.A.Fleming. Hall steadpress.2. Dock and Harbour Engineering by H.P. Ozha and G.H. Ozha, Charoter Book stad Anand.3. Dock and Harbour Engineering by S. Seetharamam, Umesh Publications.4. Coastal Engineering Volume I & II by Richand L. Silister Elsvier Scientific Publishing Company.5. Pera Brunn, Port Engineering, Gulf Publishing Company.


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IE 216/2 SPECIAL CONCRETES AND APPLICATIONS

IE 216/3 ENVIRONMENTAL IMPACT ANALYSIS

PURPOSE

To get exposed to different types of concretes and their characteristics and applications.


The use of polymers in making concrete and their special properties

The improvement in ductility can be brought out using fibre reinforced concrete incorporating

different fibres

The application of light weight concrete to multistoreyed buildings and its reduction in dead loads

When the water cement ratio is very low and especially in dam construction using the special

features of roller compacted concrete enhancement of properties can be achieved

UNIT I

POLYMER CONCRETE: Types - Polymer cement concrete, Polymer impregnated concrete, Polymer

concrete-properties and applications - Blended cement concretes.

UNIT I I

FIBRE REINFORCED CONCRETE: Different types of metallic and non metallic fibres - different types of

FRC - properties and applications, slurry infiltrated fibre reinforced concrete properties.

UNIT III

LIGHT WEIGHT CONCRETE: Ferro cement and its applications,Light Weight and High Density concrete

- Types - properties and applications.

UNIT I V

OTHER CONCRETES: Bacterial concrete - Born again concrete (Recycled Aggregate concrete) - Electric

concrete (smart concrete) description - application - High performance concrete-Production and

applications.

1. Fintel, "Hand book of Concrete Enssi Vannostrand", 1974 .

2. Metha P. K. and Monterio P. J. M. "Concrete-Structures", Properties and Materials, 2nd Edition,

PHI, 1998

3. M. S. Shetty, "Concrete Technology" S.Chand and Company Ltd, Delhi, 2000

4. Neville. A. M. "Properties of Concrete", Pitman Publishing Limited, London, 1990

5. Aitkens, "High Performance Concrete", McGraw Hill, 1999


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PURPOSEThis course work aims at making students to get the fundamental knowledge on the environmentalimpacts by the major engineering projects and the methods of assessing these impacts so as to decidethe sustainability of any engineering project.

UNIT-I

Introduction: Historical perspective of environmental protection laws and acts in India- Definition of EIA,Industrial policy statement of the Govt. of India.

Legal AspectsConstitutional provisional - Fiscal incentives for environmental protection National Standards - Bureauof Indian Standards and WHO standards.Socio Economic ImpactTypes of impact -Steps in performing socioeconomic impact assessment- Analysis of public services andfacilities impact-Social impacts-Impacts of economic profile of the community.

UNIT-II

Air Quality Impact: Background -Typical considerations and factors-Impact of industry- Transportation-Human settlements and mitigation methods.Noise ImpactNoise and sound-The effects of noise on people-Noise scales and rating methods-Estimating

transportation noise impacts and planning.

UNIT-IIIEnergy Impact: Energy impact consideration- sources data - energy conservation data - EIA ofhydrothermal and nuclear power plants.Forest and Wild Life ImpactBiological concepts and terms-Impact on flora and fauna-Mitigation measures and alternatives.

UNIT-IVWater Quality Impact: Water quality criteria and standards- water quality impacts by developmentprojects-Assessment of water qualities-impact of water quality on Agriculture, human beings andIndustries - Planning for protected water supply.

UNIT-VMethodology of EIA: EIA methodologies, Preliminary assessment and qualification-Comparison ofalternatives-Cost benefit analysis-Public involvement-Exchange of information, training- Case studies onEIA of development projects and Environmental auditing.

Text Books1. John .G. Rau & David G Hooten , Environmental impact analysis Handbook, McGraw HillPublishing & Co, Newyork. 19902. Shukla,S.K & Srivatsava,P.R, Concepts in Environmental Impact Analysis, CommonwealthPublications, New Delhi, 1992.

Reference Books1. Jain RK, LV,Stacey G.S., Environmental impact Analysis, Van Nostrand Co. Newyork, 1977

2. Guidelines to environmental impact assessment in developing countries, UNEP, 1985.3. John E. Heer and Joseph Hagerty.D Environmental Assessment and statements, Van NostrandRanhold Co, Newyork. 19774. Larry W.Canter,, Environmental Impact Assessment McGraw Hill Book Co. New Delhi, 1996

5. Golden J. Environmental impact Data Book, An Ambor Science,. 1979


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IE 216/4 CONSTRUCTION EQUIPMENT AND MANAGEMENT

PURPOSE:This subject covers comprehensively various equipment used for construction and its management


Planning and management of equipment in projects

Fundamentals of earthwork operations and various earthwork equipment

Other equipment for dredging, tunneling, blasting etc., and pumps used in construction

Various materials handling equipment used in construction

Equipment used for production of concrete

UNIT - IConstruction Equipment Management: Identification Planning - Equipment Management in Projects

- Maintenance Management Replacement Unit Operating Cost - Cost Control of Equipment -

Depreciation Analysis Safety Management

UNIT - IIEquipment for Earthwork: Fundamentals of Earth Work Operations - Earth Moving Operations - Typesof Earth Work Equipment - Tractors, Motor Graders, Scrapers, Front end Waders, Earth Movers

UNIT IIIOther Construction Equipment: Equipment for Dredging, Trenching, Tunneling, Drilling, Blasting -Equipment for Compaction - Erection Equipment - Types of pumps used in Construction - Equipment forDewatering and Grouting Foundation and Pile Driving Equipment

UNIT - IVMaterials Handling Equipment: Forklifts and related equipment - Portable Material Bins Conveyors -Hauling Equipment

UNIT- VEquipment for Production of Aggregate and Concreting: Crushers Feeders - Screening Equipment- Handling Equipment - Batching and Mixing Equipment - Hauling, Pouring and Pumping Equipment Transporters

References:1. Peurifoy, R.L., Ledbetter, W.B. and Schexnayder, C., Construction Planning, Equipment and Methods,6th Edition, McGraw-Hill, Singapore, 19952. Sharma S.C. Construction Equipment and Management, Khanna Publishers, New Delhi, 1988.3. Deodhar, S.V. Construction Equipment and Job Planning, Khanna Publishers, New Delhi, 1988.4. Dr.Mahesh Varma, Construction Equipment and its planning and Application, Metropolitan BookCompany, New Delhi. 1983.

IE 241 CONSTRUCTION MANAGEMENT SOFTWARE LAB


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Prepare a Construction Schedule / work flow by using PRIMVERA software.

a. Residential building complex

b. Bridge construction

c. Commercial complex

d. Educational institute

e. Industrial Buildings